CN114802387B - Indoor small-size brick transport vechicle of building - Google Patents

Abstract

The invention relates to an indoor small brick transport vehicle, in particular to an indoor small brick transport vehicle for a house building. The invention provides an indoor small brick block transport vehicle for house construction, which is convenient for pouring bricks. The utility model provides a house building's indoor small-size brick transport vechicle, including base, first runner, second runner, first handle, place frame etc. the base left side runs through ground rotation type and is equipped with first runner, and symmetrical formula rotation type is equipped with the second runner around the base bottom right side, and symmetrical formula is equipped with first handle around the base upper left portion, and people make this kind of house building's indoor small-size brick transport vechicle motion through promoting first handle, and place frame has been placed to the base middle part, can place article in the place frame. People put the brick into the placing frame, and control the movement direction of the indoor small brick transport vehicle of the house building by pushing the first handle, so that the brick can be transported to a proper position.

Description

Indoor small-size brick transport vechicle of building

Technical Field

The invention relates to an indoor small brick transport vehicle, in particular to an indoor small brick transport vehicle for a house building.

Background

In the building construction process, because the indoor face price is narrow and small, the great fragment of brick transport vechicle of size on the market all is inconvenient to carry out indoor fragment of brick transportation, in addition, at the in-process of fragment of brick transportation, because indoor ground barrier is more, the fragment of brick rocks easily and drops to ground, not only causes the damage to the fragment of brick transport vechicle easily, can also cause the threat to people's life safety.

Patent application CN214396900U, publication day 20211015 discloses a building floor tile piece transport vechicle, including the transportation frame, remove the wheel and install the pushing hands in transportation frame one side, be provided with the transportation on the transportation frame and fight, the lower terminal surface one side of transportation fight rotates through the axis of rotation and the up end of transportation frame to be connected, semicircle draw-in groove has been seted up to the opposite side of the lower terminal surface of transportation fight. This kind of building ceramic tile piece transport vechicle passes through the setting of threaded rod, nut cover, connecting rod, utilize the rotation of threaded rod to drive the nut cover and remove in the horizontal direction, the removal of nut cover drives the inner bucket through the angular rotation of connecting rod and removes in vertical direction, when the connecting rod is in vertical direction, the inner bucket moves to the highest department, the workman of being convenient for places the fragment of brick in to the inner bucket, the inner bucket fills the back, make biax driving motor's output shaft counter-rotating, the inner bucket moves to the lowest department downwards, the workman can continue to pack into the fragment of brick to the transportation fill inside, the problem of being inconvenient for the fragment of brick to put into is avoided transporting the bucket too high. However, the brick block transport vehicle for the building construction floor tile can only incline the brick block to the ground from one side, and is not beneficial to carrying out brick block transport in a room with a small area.

In view of the above, a new indoor small brick carrier vehicle for building construction, which is convenient for pouring bricks, is discovered in view of the above problems, and has important significance for improvement of the indoor small brick carrier vehicle for building construction.

Disclosure of Invention

In order to overcome the defect that an indoor small brick block transport vehicle for building construction can only topple bricks from one side, the technical problem is that: the indoor small brick block transport vehicle is convenient for pouring bricks and is used for house construction.

The technical proposal is as follows: the utility model provides a house building's indoor small-size brick transport vechicle, including the base, first runner, the second runner, first handle, place the frame, rotary mechanism and hold up release mechanism, the base left side runs through ground rotation type and is equipped with first runner, base bottom right side front and back symmetry formula is equipped with the second runner, base upper left portion front and back symmetry formula is equipped with first handle, people make this kind of house building's indoor small-size brick transport vechicle motion through promoting first handle, place the frame in the middle part of the base, can place article in the frame, the base middle part is equipped with the rotary mechanism who is used for rotating and places the frame, be equipped with on the frame of placing and hold up release mechanism, hold up release mechanism can make the front and back both sides of placing the frame no longer fixed.

As the preference, first revolving plate, first dead lever, first torsion spring, first fixed plate, first slide and first spring constitute rotary mechanism, both sides all are equipped with first dead lever around the base, all bilateral symmetry formula rotation is equipped with first revolving plate on the first dead lever, bilateral symmetry formula is around having first torsion spring on the first dead lever, first torsion spring both ends are connected with base and first revolving plate respectively, both sides all bilateral symmetry formula are equipped with first fixed plate around placing the frame bottom, all run through formula is equipped with first slide on the first fixed plate, first slide is fixed spacing to placing the frame, all around first spring on the first slide, first spring both ends are connected with first fixed plate and first slide respectively, first slide all with adjacent first revolving plate block.

As the preference, second handle, the second dead lever, the second spring, the third dead lever, second rotating plate and second torsion spring constitute and hold up release mechanism, both sides all bilateral symmetry are equipped with the second dead lever around placing the frame, all sliding type is equipped with the second handle between two second dead levers of horizontal homonymy, people can stimulate the second handle and make and place the frame and upwards rotate, second dead lever upper portion all around the second spring, the second spring both ends are connected with placing frame and second handle respectively, both sides all bilateral symmetry are equipped with the third dead lever around placing the frame, all rotation type is equipped with the second rotating plate on the third dead lever, all around there is second torsion spring on the third dead lever, second torsion spring both ends are connected with placing frame and second rotating plate respectively.

Preferably, the buffer mechanism for buffering the shaking of the brick blocks is further arranged, the supporting plate, the first sliding rods and the third springs form the buffer mechanism, the first sliding rods are arranged on the front side and the rear side of the bottom of the placement frame in a sliding mode, the supporting plate is connected between the two first sliding rods, the third springs are wound on the lower portions of the first sliding rods, and two ends of the third springs are connected with the placement frame and the first sliding rods respectively.

Preferably, the brick cover comprises a cover mechanism for shielding bricks to enable the bricks to fall down, wherein the cover mechanism is composed of a second fixing plate, a third rotating plate, a third fixing plate, a fourth rotating plate and a fourth spring, the second fixing plates are symmetrically arranged on the left side and the right side of the top of the base, the third rotating plates are rotationally connected between the two second fixing plates on the same longitudinal side, the third rotating plates are used for opening and closing a placing frame, the two fourth rotating plates are rotationally arranged on the front side and the rear side of the outer side of the third rotating plates, the two third fixing plates are symmetrically arranged on the left side and the right side of the top of the base, and the fourth springs are connected between the adjacent third fixing plates and the fourth rotating plates.

The locking mechanism is characterized by further comprising a locking mechanism for fixing the third rotating plate, wherein the locking mechanism is composed of a fifth rotating plate, a fourth fixing rod, a fourth fixing plate, a second sliding rod and a fifth spring, the fourth fixing rod is arranged in the middle of the left side of the top of the right side third rotating plate, the fifth rotating plate is rotatably arranged on the fourth fixing rod, the fourth fixing plate is arranged in the middle of the right side of the top of the left side third rotating plate, the second sliding rod is slidably arranged in the middle of the fourth fixing plate, the fifth spring is wound on the upper portion of the second sliding rod, two ends of the fifth spring are respectively connected with the second sliding rod and the fourth fixing plate, and the bottom of the second sliding rod is clamped with the left side of the fifth rotating plate.

And preferably, the device further comprises a limiting mechanism for clamping the placing frame to enable the placing frame to rotate excessively, wherein a limiting mechanism is formed by a fifth fixing plate, a second sliding plate, a sixth spring, a third sliding plate, a sixth rotating plate and a seventh spring, the second sliding plate is connected inside the fifth fixing plate in a sliding manner, the sixth spring is connected with the second sliding plate and the fifth fixing plate in a sliding manner, the third sliding plate is connected to the right side of the second sliding plate in a sliding manner, the seventh spring is connected to the third sliding plate in a winding manner, and the sixth rotating plate is arranged on the right side of the third sliding plate.

Preferably, rectangular grooves are formed in the left side of the placement frame in a front-back symmetrical mode, and the sixth rotating plate is clamped with the adjacent rectangular grooves.

By adopting the technical scheme, the invention has at least the following advantages: 1. people put the brick into the placing frame, and control the movement direction of the indoor small brick transport vehicle of the house building by pushing the first handle, so that the brick can be transported to a proper position.

2. Through pulling the second handle of front side or rear side, finally make the fragment of brick of placing in the frame incline to ground from rear side or front side, so make things convenient for people to transport the fragment of brick, improve transport efficiency.

3. In the transportation of fragment of brick, ground barrier can make the fragment of brick rock from top to bottom, and the tensile and the reset of third spring adaptability simultaneously, the upper and lower slip of layer board adaptability buffers the rocking of fragment of brick, so can reduce the fragment of brick to the damage of this kind of house building's indoor small-size brick transport vechicle.

4. The third rotating plate can prevent the brick from falling to the ground in the transportation process and has a certain buffer effect on the shaking of the brick.

5. The second slide bar is with fifth rotating plate block, so in the transportation of fragment of brick, the third rotating plate is by better fixed, avoids the fragment of brick to drop.

6. Sixth rotating plate and place the frame block, carry out spacingly to placing the frame, prevent to place the too big indoor small-size brick piece transport vechicle that leads to this kind of building construction of frame rotation angle and overturn.

Drawings

Fig. 1 is a schematic overall perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of the whole structure of the rotating mechanism of the present invention.

Fig. 4 is a schematic view of a part of a rotating mechanism of the present invention.

Fig. 5 is an enlarged perspective view of the present invention at a.

Fig. 6 is a schematic view of the overall perspective structure of the lift release mechanism of the present invention.

Fig. 7 is a partially cutaway perspective view of the lift release mechanism of the present invention.

FIG. 8 is an enlarged schematic cross-sectional perspective view of the present invention at B.

Fig. 9 is a schematic overall perspective view of the buffering mechanism of the present invention.

Fig. 10 is a partially cutaway perspective view of a cushioning mechanism of the present invention.

Fig. 11 is a schematic perspective view of the whole structure of the covering mechanism of the present invention.

Fig. 12 is a partially cut-away perspective view of a cover mechanism of the present invention.

Fig. 13 is a schematic perspective view of the whole structure of the locking mechanism of the present invention.

Fig. 14 is a partially cut-away perspective view of the locking mechanism of the present invention.

Fig. 15 is an enlarged schematic cross-sectional perspective view of the present invention at C.

Fig. 16 is a schematic overall perspective view of the limiting mechanism of the present invention.

Fig. 17 is a schematic view of a partial perspective structure of a limiting mechanism of the present invention.

Reference numerals illustrate: 1. base, 2, first wheel, 3, second wheel, 4, first grip, 5, placement frame, 6, rotation mechanism, 61, first rotation plate, 62, first fixing lever, 63, first torsion spring, 64, first fixing plate, 65, first slide plate, 66, first spring, 7, hold-up release mechanism, 71, second grip, 72, second fixing lever, 73, second spring, 74, third fixing lever, 75, second rotation plate, 76, second torsion spring, 8, buffer mechanism, 81, pallet, 82, first slide bar, 83, third spring, 9, covering mechanism, 91, second fixing plate, 92, third rotation plate, 93, third fixing plate, 94, fourth rotation plate, 95, fourth spring, 10, locking mechanism, 101, fifth rotation plate, 102, fourth fixing lever, 103, fourth fixing plate, 104, second grip, 105, fifth spring, 11, limit mechanism, 111, fifth fixing plate, 112, sixth slide bar, 113, third slide plate, 114, seventh slide plate, 116.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not intended to limit the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The utility model provides a house building's indoor small-size brick transport vechicle, as shown in fig. 1 and 2, including base 1, first runner 2, second runner 3, first handle 4, place frame 5, rotary mechanism 6 and hold up release mechanism 7, base 1 left side runs through the mode that passes through the bearing is equipped with first runner 2, base 1 bottom right side front and back symmetry is equipped with second runner 3 through the mode of bearing, base 1 left upper portion front and back symmetry is fixed and is equipped with first handle 4, place frame 5 has been placed at base 1 middle part, rectangular channel has been opened to symmetry about placing frame 5 left side, base 1 middle part is equipped with rotary mechanism 6, rotary mechanism 6 is used for rotating and places frame 5, be equipped with hold up release mechanism 7 on placing frame 5, hold up release mechanism 7 can make the front and back both sides of placing frame 5 no longer fixed.

As shown in fig. 3, fig. 4 and fig. 5, the rotating mechanism 6 includes a first rotating plate 61, a first fixing rod 62, a first torsion spring 63, a first fixing plate 64, a first sliding plate 65 and a first spring 66, wherein the first fixing rod 62 is fixedly arranged on the front and rear sides of the base 1, the first rotating plate 61 is symmetrically arranged on the first fixing rod 62 in a bearing manner, the first rotating plate 61 is contacted with the placing frame 5, the first torsion spring 63 is symmetrically wound on the first fixing rod 62, two ends of the first torsion spring 63 are respectively connected with the base 1 and the first rotating plate 61, the first fixing plate 64 is fixedly connected on the front and rear sides of the bottom of the placing frame 5 through bolts, the first sliding plate 65 is slidably arranged on the first fixing plate 64, the first sliding plate 65 is contacted with the placing frame 5, the first spring 66 is wound on the first sliding plate 65, two ends of the first spring 66 are respectively connected with the first fixing plate 64 and the first sliding plate 65, and the first sliding plate 65 is clamped with the adjacent first rotating plate 61.

As shown in fig. 6,7 and 8, the lifting release mechanism 7 comprises a second handle 71, a second fixing rod 72, a second spring 73, a third fixing rod 74, a second rotating plate 75 and a second torsion spring 76, the second fixing rod 72 is symmetrically and fixedly arranged on the front side and the rear side of the placement frame 5, the second handle 71 is slidably arranged between the two second fixing rods 72 on the same lateral side, the second spring 73 is wound on the upper portion of the second fixing rod 72, two ends of the second spring 73 are respectively connected with the placement frame 5 and the second handle 71, the third fixing rod 74 is symmetrically and fixedly arranged on the front side and the rear side of the placement frame 5, the second rotating plate 75 is arranged on the third fixing rod 74 in a bearing manner, the second torsion spring 76 is wound on the third fixing rod 74, two ends of the second torsion spring 76 are respectively connected with the placement frame 5 and the second rotating plate 75, the lower portion of the second rotating plate 75 is contacted with the first sliding plate 65, and the second handle 71 moves upwards to be contacted with the second rotating plate 75.

The indoor small brick carrier for house construction is used for transporting bricks indoors, firstly, people put the bricks into the placing frame 5, then push the first handle 4, the first rotating wheel 2 and the second rotating wheel 3 rotate, people can transport the indoor small brick carrier for house construction to a proper position, then pull the front second handle 71 upwards, the front second handle 71 upwards slides along the front second fixing rod 72, the front second spring 73 is compressed, when the front second handle 71 contacts with the front second rotating plate 75, the front second rotating plate 75 rotates around the front third fixing rod 74, the front second torsion spring 76 twists and deforms, the front second rotating plate 75 drives the front first sliding plate 65 to inwards slide, the front first spring 66 is compressed, the front first sliding plate 65 is not clamped with the front first rotating plate 61 any more, at this time, people continue to pull the front second handle 71 upwards to enable the placement frame 5 to rotate upwards, the placement frame 5 drives the rear first sliding plate 65 and the rear first rotating plate 61 to integrally rotate around the rear first fixing rod 62, the rear first torsion spring 63 is in torsion deformation, bricks in the placement frame 5 slowly incline to the ground from the rear side, after the bricks are completely inclined, people pull the front second handle 71 to enable the placement frame 5 to rotate downwards, the placement frame 5 drives the rear first sliding plate 65 and the rear first rotating plate 61 to integrally rotate reversely around the rear first fixing rod 62 and reset, the rear first torsion spring 63 resets, after waiting for the placement frame 5 to rotate to a horizontal state, people release the front second handle 71, the front second handle 71 is reset to drive the front second handle 71 to slide downwards, and after the front second handle 71 is no longer in contact with the front second rotating plate 75, the front second torsion spring 76 resets and drives the front second rotating plate 75 to reversely rotate and reset, the front first spring 66 resets and drives the front first sliding plate 65 to outwards slide along the front first fixing plate 64, then the front first sliding plate 65 can be clamped with the front first rotating plate 61, people can also pull the rear second handle 71, finally bricks in the placing frame 5 are poured to the ground from the front, and therefore people can conveniently transport the bricks, and the transportation efficiency is improved.

Example 2

On the basis of embodiment 1, as shown in fig. 2, 9 and 10, the buffer mechanism 8 is further included, the buffer mechanism 8 is used for buffering the shaking of brick, the buffer mechanism 8 comprises a supporting plate 81, first sliding rods 82 and third springs 83, the front side and the rear side of the bottom of the placement frame 5 are respectively provided with the first sliding rods 82 in a penetrating sliding mode, the supporting plate 81 is connected between the two first sliding rods 82, the supporting plate 81 moves downwards to be in contact with the placement frame 5, the lower portion of the first sliding rods 82 is respectively wound with the third springs 83, and two ends of the third springs 83 are respectively connected with the placement frame 5 and the first sliding rods 82.

In the transportation of fragment of brick, the barrier on ground can make the fragment of brick rock from top to bottom, when fragment of brick downstream and with layer board 81 contact, layer board 81 drives first slide bar 82 and is placed frame 5 downwardly sliding along, third spring 83 can be stretched, when fragment of brick upward movement, third spring 83 resets and drives layer board 81 and first slide bar 82 whole along placing frame 5 upwardly sliding, at the in-process that fragment of brick rocked from top to bottom, the stretching and the reset of third spring 83 adaptability, the upper and lower slip of layer board 81 adaptability can reduce the damage of fragment of brick to this kind of house building's indoor small-size brick transport vechicle.

As shown in fig. 2, 11 and 12, the brick-holding device further comprises a covering mechanism 9, the covering mechanism 9 is used for shielding bricks to enable parts of the bricks to fall, the covering mechanism 9 comprises a second fixing plate 91, a third rotating plate 92, a third fixing plate 93, a fourth rotating plate 94 and a fourth spring 95, the second fixing plate 91 is fixedly connected to the left side and the right side of the top of the base 1 through bolts in a front-back symmetrical mode, the third rotating plate 92 is connected between the two second fixing plates 91 on the same longitudinal side in a rotating mode, the third rotating plate 92 is contacted with the placement frame 5, the two third rotating plates 92 are contacted with each other, two fourth rotating plates 94 are arranged on the front side and the rear side of the outer side of the third rotating plate 92 in a bearing mode, two third fixing plates 93 are fixedly arranged on the front-back symmetrical mode on the left side and the right side of the top of the base 1, and the fourth springs 95 are connected between the adjacent third fixing plates 93 and the fourth rotating plates 94.

People pull the third revolving plate 92 upwards, the third revolving plate 92 can rotate upwards around the second fixed plate 91, the third revolving plate 92 drives the fourth revolving plate 94 to rotate upwards, the fourth spring 95 can be stretched, the placing frame 5 is opened, people can load the brick into the placing frame 5, then the third revolving plate 92 is loosened, the fourth spring 95 resets and drives the third revolving plate 92 and the fourth revolving plate 94 to integrally rotate downwards to the horizontal position, in the transportation process of the brick, the third revolving plate 92 can prevent the brick from falling to the ground in the transportation process, and a certain buffer effect is provided for shaking of the brick.

As shown in fig. 2, 13, 14 and 15, the locking mechanism 10 is further included, the locking mechanism 10 is used for fixing the third rotating plate 92, the locking mechanism 10 includes a fifth rotating plate 101, a fourth fixing rod 102, a fourth fixing plate 103, a second sliding rod 104 and a fifth spring 105, the fourth fixing rod 102 is fixedly disposed at the left middle part of the top of the right third rotating plate 92, the fifth rotating plate 101 is disposed on the fourth fixing rod 102 in a bearing manner, the fourth fixing plate 103 is fixedly disposed at the right middle part of the top of the left third rotating plate 92, the second sliding rod 104 is slidably disposed at the middle part of the fourth fixing plate 103, the fifth spring 105 is wound around the upper part of the second sliding rod 104, two ends of the fifth spring 105 are respectively connected with the second sliding rod 104 and the fourth fixing plate 103, and the bottom of the second sliding rod 104 is engaged with the left side of the fifth rotating plate 101.

The second slide bar 104 is pulled upwards by people to enable the second slide bar 104 to be not clamped with the fifth rotating plate 101, the fifth spring 105 is stretched, then the fifth rotating plate 101 is pushed to enable the fifth rotating plate 101 to rotate around the fourth fixing rod 102, at the moment, the third rotating plate 92 is not fixed any more, the second slide bar 104 is loosened, the fifth spring 105 is reset to drive the second slide bar 104 to slide downwards, people can pour out or load bricks in the placing frame 5 into the placing frame, when the third rotating plate 92 needs to be fixed, people can reversely rotate the fifth rotating plate 101, the fifth rotating plate 101 can be contacted with the second slide bar 104, meanwhile, the fifth rotating plate 101 can press the second slide bar 104 to enable the second slide bar 104 to slide upwards, the fifth spring 105 is stretched, when the fifth rotating plate 101 reversely rotates to reset, the fifth spring 105 is reset to drive the second slide bar 104 to slide downwards, the second slide bar 104 is clamped with the fifth rotating plate 101, and therefore in the transportation process of the bricks, the third rotating plate 92 is better fixed, and the bricks are prevented from falling down.

As shown in fig. 2, 16 and 17, the device further comprises a limiting mechanism 11, the limiting mechanism 11 is used for clamping the placement frame 5 to enable the placement frame to rotate excessively, the limiting mechanism 11 comprises a fifth fixing plate 111, a second sliding plate 112, a sixth spring 113, a third sliding plate 114, a sixth rotating plate 115 and a seventh spring 116, the front side and the rear side of the left portion of the base 1 are fixedly connected with the fifth fixing plate 111 through bolts, the inside of the fifth fixing plate 111 is slidably connected with the second sliding plate 112, the inside of the fifth fixing plate 111 is provided with the sixth spring 113 in a winding manner, two ends of the sixth spring 113 are respectively connected with the second sliding plate 112 and the fifth fixing plate 111, the right side of the second sliding plate 112 is slidably connected with a third sliding plate 114, two ends of the seventh spring 116 are respectively connected with the third sliding plate 114 and the second sliding plate 112, the right side of the third sliding plate 114 is provided with the sixth rotating plate 115, and the rectangular slot on the placement frame 5 is respectively clamped with the adjacent sixth rotating plate 115.

When the placing frame 5 rotates upwards, the placing frame 5 can be in contact with the sixth rotating plate 115 and extrude the sixth rotating plate 115, so that the third sliding plate 114 and the sixth rotating plate 115 integrally slide leftwards along the second sliding plate 112, the seventh spring 116 is compressed, when the sixth rotating plate 115 corresponds to the rectangular groove, the seventh spring 116 resets and drives the third sliding plate 114 and the sixth rotating plate 115 to integrally slide rightwards, the sixth rotating plate 115 is clamped with the placing frame 5, the placing frame 5 is in a vertical state, bricks in the placing frame 5 are dumped to the ground, but due to inertia, the placing frame 5 can continuously rotate forwards and backwards by a small extent, the sixth rotating plate 115 can slide upwards and downwards along with the placing frame 5 by a small extent, the sixth rotating plate 115 drives the third sliding plate 114 and the second sliding plate 112 integrally slide upwards and downwards along the fifth fixed plate 111, the sixth spring 113 can be adaptively compressed and reset, so that the placing frame 5 is buffered, meanwhile, the placing frame 5 is limited to prevent the small-size block transport vehicle of the building from being overturned, the bricks in the house are prevented from being overturned by the rotating angle, the placing frame 5 is required to wait for the small-size block transport vehicle to fall, the seventh rotating plate 115 is completely reset, the sixth rotating plate 115 is not required to be reset, and the reset plate 115 is completely reset by the reset spring 116 is reset, and people can not rotate leftwards is reset by the reset plate 115.

The foregoing is merely illustrative of the present invention, and the present invention is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (6)

1. The utility model provides a house building's indoor small-size brick transport vechicle, including base (1), first runner (2), second runner (3), first handle (4) and place frame (5), base (1) left side rotationally is equipped with first runner (2) with penetrating, base (1) bottom right side front and back symmetry formula is equipped with second runner (3), base (1) upper left side front and back symmetry formula is equipped with first handle (4), people make this house building's indoor small-size brick transport vechicle motion through promoting first handle (4), place frame (5) in base (1) middle part, place the fragment of brick in placing frame (5), characterized by still including rotary mechanism (6) and hold up release mechanism (7), be equipped with rotary mechanism (6) that are used for rotating and place frame (5) in the middle part of base (1), be equipped with hold up release mechanism (7) on placing frame (5), hold up release mechanism (7) can make the front and back both sides of placing frame (5) not fixed any more;

The rotary mechanism comprises a first rotating plate (61), a first fixing rod (62), a first torsion spring (63), a first fixing plate (64), a first sliding plate (65) and a first spring (66), wherein the first fixing rod (62) is arranged on the front side and the rear side of a base (1), the first rotating plate (61) is arranged on the first fixing rod (62) in a bilateral symmetry mode in a rotation mode, the first torsion spring (63) is wound on the first fixing rod (62) in a bilateral symmetry mode, two ends of the first torsion spring (63) are respectively connected with the base (1) and the first rotating plate (61), the first fixing plate (64) is arranged on the front side and the rear side of the bottom of the placement frame (5) in a bilateral symmetry mode, the first sliding plate (65) is arranged on the first fixing plate (64) in a penetrating mode in a sliding mode, the first sliding plate (65) is used for fixing and limiting the placement frame (5), the first spring (66) is wound on the first sliding plate (65), two ends of the first spring (66) are respectively connected with the first fixing plate (64) and the first sliding plate (65), and the first sliding plate (65) are clamped with the first sliding plate (61) adjacent to the first sliding plate (61);

The second handle (71), second dead lever (72), second spring (73), third dead lever (74), second rotating plate (75) and second torsion spring (76) constitute and hold up release mechanism (7), both sides all bilateral symmetry are equipped with second dead lever (72) around placing frame (5), all sliding type is equipped with second handle (71) between two second dead levers (72) of horizontal homonymy, people stimulate second handle (71) and make placing frame (5) upwards rotate, second dead lever (72) upper portion all around second spring (73), second spring (73) both ends are connected with placing frame (5) and second handle (71) respectively, both sides all bilateral symmetry are equipped with third dead lever (74) around placing frame (5), all rotate on third dead lever (74) and be equipped with second rotating plate (75), all around second torsion spring (76) on third dead lever (74), second torsion spring (76) both ends are connected with placing frame (5) and second rotating plate (75) respectively.

2. The indoor small brick block transport vehicle for building construction according to claim 1, further comprising a buffer mechanism (8) for buffering the shaking of bricks, wherein the supporting plate (81), the first sliding rods (82) and the third springs (83) form the buffer mechanism (8), the first sliding rods (82) are slidably arranged on the front side and the rear side of the bottom of the placement frame (5), the supporting plate (81) is connected between the two first sliding rods (82), the third springs (83) are wound on the lower portions of the first sliding rods (82), and two ends of the third springs (83) are respectively connected with the placement frame (5) and the first sliding rods (82).

3. The indoor small brick carrier vehicle for building construction according to claim 2, further comprising a covering mechanism (9) for shielding bricks to enable parts of the bricks to fall, wherein the covering mechanism (9) is formed by a second fixing plate (91), a third rotating plate (92), a third fixing plate (93), a fourth rotating plate (94) and a fourth spring (95), the second fixing plates (91) are symmetrically arranged on the left side and the right side of the top of the base (1), the third rotating plate (92) is rotatably connected between the two second fixing plates (91) on the same longitudinal side, the third rotating plate (92) is used for opening and closing the placing frame (5), two fourth rotating plates (94) are rotatably arranged on the front side and the rear side of the outer side of the third rotating plate (92), two third fixing plates (93) are symmetrically arranged on the left side and the right side of the top of the base (1), and the fourth springs (95) are symmetrically arranged between the adjacent third fixing plates (93) and the fourth rotating plates (94).

4. The indoor small brick carrier vehicle for building construction according to claim 3, further comprising a locking mechanism (10) for fixing the third rotating plate (92), wherein the fifth rotating plate (101), the fourth fixing rod (102), the fourth fixing plate (103), the second sliding rod (104) and the fifth spring (105) form the locking mechanism (10), the fourth fixing rod (102) is arranged in the middle of the left side of the top of the right side third rotating plate (92), the fifth rotating plate (101) is rotatably arranged on the fourth fixing rod (102), the fourth fixing plate (103) is arranged in the middle of the right side of the top of the left side third rotating plate (92), the second sliding rod (104) is slidably arranged in the middle of the fourth fixing plate (103), the fifth spring (105) is wound on the upper portion of the second sliding rod (104), two ends of the fifth spring (105) are respectively connected with the second sliding rod (104) and the fourth fixing plate (103), and the bottom of the second sliding rod (104) is clamped with the left side of the fifth rotating plate (101).

5. The indoor small brick carrier vehicle for building construction according to claim 4, further comprising a limiting mechanism (11) for clamping the placement frame (5) to rotate excessively, wherein the fifth fixing plate (111), the second sliding plate (112), the sixth spring (113), the third sliding plate (114), the sixth rotating plate (115) and the seventh spring (116) form the limiting mechanism (11), the fifth fixing plates (111) are respectively arranged on the front side and the rear side of the left part of the base (1), the second sliding plate (112) are respectively connected in a sliding manner in the fifth fixing plate (111), the sixth spring (113) is respectively connected with the second sliding plate (112) and the fifth fixing plate (111) in a winding manner at two ends of the sixth spring (113), the third sliding plate (114) is respectively connected on the right side of the second sliding plate (112), the seventh spring (116) is respectively connected with the third sliding plate (114) and the second sliding plate (112) in a winding manner at two ends of the seventh spring (116), and the third sliding plate (114) is respectively provided with the sixth rotating plate (115).

6. The indoor small brick carrier vehicle for house construction according to claim 5, wherein rectangular grooves are symmetrically formed on the left side of the placement frame (5) and the sixth rotating plate (115) is engaged with the adjacent rectangular grooves.